CN108390306B - Electric power is with high-efficient cable device of cutting - Google Patents

Abstract

The invention discloses a high-efficiency cable cutting device for electric power, which structurally comprises a box body, a replacing window, a high-efficiency cable cutting device, a control electric box, an extending block, a rectangular groove, a first collecting box, a sliding rail, a U-shaped handle and a second collecting box. The cable cutting device can push the cutting blade to cut cables accurately through the cutter groove, so that each cable section is equal in length and stays in the U-shaped telescopic rod, the cables are collected in two directions through the left and right driving of the collecting rod, and the cable cutting device can be rolled up and used by workers conveniently and taken out.

Description

Electric power is with high-efficient cable device of cutting

Technical Field

The invention discloses a high-efficiency cable shearing device for electric power, and belongs to the field of high-efficiency cable shearing devices for electric power.

Background

Electric power is an energy source using electric energy as power. In the 70 s of the 19 th century, the invention and application of electric power opened up the second industrialized climax. The invention and application of electric power become one of three technological revolution which occur in the world since 18 th century of human history, and the science and technology changes the lives of people. In the current internet era, people still have a continuously increasing demand for electric power, because the invention discloses more products using electric power, such as computers, household appliances and the like. The cable industry is the basic industry. The product has various types and wide application range, relates to the industries of electric power, construction, communication, manufacturing and the like, is a basic device indispensable for transmitting electric energy, transmitting information, manufacturing various motors, instruments and meters and realizing electromagnetic energy conversion, and is a necessary basic product for electrification and informatization in the future.

The general work load of prior art is big, cuts and does not accurately reduce staff's efficiency and influence the use and cut the back and need artifical rolling or collect, and inconvenient takeout is waited to further perfect this function.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an efficient cable shearing device for electric power, which solves the problems that the common workload is large, the shearing cannot accurately reduce the efficiency of workers and influence the use, manual winding or collection is needed after the shearing, the carrying is inconvenient, and the function needs to be further improved.

In order to achieve the purpose, the invention is realized by the following technical scheme: a high-efficiency cable cutting device for electric power structurally comprises a box body, a replacing window, a high-efficiency cable cutting device, a control electric box, an extension block, a first rectangular groove, a first collecting box, a sliding rail, a U-shaped handle and a second collecting box;

the box body is of a cuboid structure, a replacing window is arranged at the top of the box body, the replacing window is embedded at the top of the box body and is hinged, the high-efficiency cable shearing device is arranged in the box body and is movably connected, the control electric box is arranged at the upper left part of the box body and is electrically connected with the high-efficiency cable shearing device, the extending block is arranged at the left end face of the box body and is fixedly connected to form an integrated structure, the first rectangular groove is embedded at the front end of the first collecting box and is fixedly connected, the slide rail is arranged at the bottom of the extending block and is slidably connected with the first collecting box, and the U-shaped handle;

cable device is cut to high efficiency includes power supply unit, positioner, tailors mechanism, collection device, guider, winding mechanism, transmission, power supply unit installs in the upper left end of box and is connected with the control electronic box electricity, positioner locate power supply unit, tailor between the mechanism and with collection device swing joint, tailor the mechanism and locate the positioner both ends and with power supply unit gear connection, collection device installs respectively in positioner left and right both ends and through tailorring mechanism, transmission hinged joint, guider installs on the box inner wall and locates collection device below both sides, winding mechanism locates collection device left side below and is connected with the transmission.

Further, the power source device comprises a motor support, a reverse motor, a motor rotating shaft, a first bevel gear, a second bevel gear, a reel rotating shaft, a cable reel, a fixed bearing, a limiting groove, a third bevel gear, a groove plate and a guide hole, wherein the left end of the motor support is welded on the inner wall of the box body, the upper part of the motor support is provided with the reverse motor, the reverse motor is arranged on the upper surface of the motor support and is electrically connected with the control electric box, the motor rotating shaft is arranged on the right side of the reverse motor and is in rotating connection, the first bevel gear is welded on the right end of the motor rotating shaft and is connected with the second bevel gear, the second bevel gear is connected with the reel rotating shaft on the left side and is arranged on the outer side of the fixed bearing, the reel rotating shaft penetrates through the cable reel and the fixed bearing and is in, fixing bearing connects the box in the top and locates cable drum both ends and rotate with the reel axis of rotation and be connected, the spacing groove inlays to be located the box top and removes with the fixing bearing right-hand member and be connected, the third awl tooth welds in reel axis of rotation right side and is connected with the positioner transmission, fixing bearing is connected in the right side below and locates the cable drum bottom to the recess board, the guiding hole inlays to be located recess board middle part.

Furthermore, the positioning device comprises a U-shaped frame, a U-shaped groove, a sleeve ring, a knife groove and a telescopic rod, the U-shaped frame is welded at the front end of the sleeve ring and is arranged right below the guide hole, the U-shaped groove is embedded in the middle of the U-shaped frame, the sleeve ring is sleeved outside the telescopic rod and is fixedly connected with the U-shaped frame, the knife groove is embedded on the telescopic rod and is arranged below the U-shaped frame, and the telescopic rod is connected with the box body on the collecting device and is connected with the box body through a hinge.

Further, the cutting mechanism comprises a power gear, a gear connecting rod, a swing plate, a hinge rod, a push rod, a cutter bar, a first sleeve rod, a cutting blade, a connecting rotating shaft, a T-shaped limiting frame, a blade connecting block, a moving rod, a rotating wheel, a wheel carrier, a movable rod, a limiting buckle and a transverse sleeve bearing, wherein the power gear is arranged at the upper right of the box body and is rotationally connected with a third bevel gear, the gear connecting rod is connected with the power gear and the swing plate and is movably connected with the swing plate through the power gear, the swing plate is connected with the push rod through the gear connecting rod and is hinged with the hinge rod, the hinge rod is connected with the swing plate and is fixedly connected with the inner wall of the box body at the right end, the push rod is connected with the swing plate at the right end of the cutter bar and is fixedly connected with the cutter bar, the cutter bar is sleeved inside the first sleeve rod and is movably connected through the push, the cutting blade is welded at the left end of the cutter bar and meshed with the cutter groove, the connecting rotating shaft is fixed at the right side of the motor bracket through a transverse sleeve bearing and is rotationally connected with the first bevel gear, the inner side of the T-shaped limiting frame is welded on the inner wall of the box body and sleeved outside the movable rod, the blade connecting block is welded at the right end of the movable rod and is matched with the cutting blade, the moving rod is arranged at the front end of the connecting rotating shaft and is movably connected with the T-shaped limiting frame through the moving rod, the rotating wheel is fixed above the wheel frame and is rotatably connected with the connecting rotating shaft, the wheel frame is welded on the inner wall of the box body and connected with the rotating wheel, the movable rod is connected with the wheel frame and the movable rod and is connected with the movable rod in a pushing way through a limit buckle, the limit buckle is welded on the upper surface of the rotating wheel, is in limit connection with the movable rod and is fixed in the middle of the movable rod, the left end of the transverse sleeve bearing is welded at the right end of the motor support and sleeved outside the connecting rotating shaft and is rotatably connected.

Further, the collecting device comprises a first movable rod, a second movable rod, a hinge shaft, a right collecting rod, a second rectangular groove, an extension spring, an inner slide rail, a sliding block, a third movable rod and a left collecting rod, wherein the first movable rod is connected with a power gear and movably connected, the second movable rod is connected with the rear parts of the first movable rod and the left collecting rod and is connected with the left collecting rod in a pulling manner through the first movable rod, the hinge shaft penetrates through the right collecting rod and the left collecting rod and is connected with the lower part of the telescopic rod in a hinged manner, the right collecting rod is arranged at the right end of the telescopic rod through the hinge shaft and is movably connected with the extension spring, the second rectangular groove is embedded inside the right collecting rod and the left collecting rod and is fixedly connected with the left collecting rod, the extension spring is connected with the left side of the third movable rod and the right collecting rod in a pulling manner through the hinge shaft, the inner side of, slide rail middle part and through third movable rod and interior slide rail sliding connection in the interior slide rail is located to the sliding block, the third movable rod passes through transmission and is connected with the sliding block promotion, left side collection pole equidistance distributes in right side collection pole left side and through second movable rod and telescopic link hinged joint.

Further, guider includes floating spring, swing joint pole, activity round pin, swinging arms, floating spring welds on swinging arms upper right side and box inner wall, swing joint pole connect the swinging arms on the box inner wall and with swinging arms swing joint, activity round pin is located between swing joint pole, the swinging arms and swing joint, the swinging arms just locates the left end through activity round pin and swing joint pole swing joint.

Further, the winding mechanism comprises a smooth winding shaft, an inclined pushing block, a second sleeve rod, an inverted L-shaped fixed rod, a movable sleeve block, a sleeve block connecting rod, a movable groove rod, a second pushing rod and a lifting block, wherein the smooth winding shaft is arranged at the upper part of the transmission device and is in supporting connection, the inclined pushing block is welded at the bottom of the second sleeve rod and is synchronously movable with the inverted L-shaped fixed rod and is arranged at the upper part of the smooth winding shaft, the second sleeve rod is arranged on the inverted L-shaped fixed rod through a groove and is synchronously movable, the inverted L-shaped fixed rod is welded at the top end of the movable sleeve block and is movably connected with the movable sleeve block, the movable sleeve block is sleeved outside the smooth winding shaft and is rotatably connected with the smooth winding shaft, the sleeve block connecting rod is connected with the movable sleeve block and the movable groove rod, the movable groove rod is arranged between the second pushing rod and the sleeve block connecting rod and is movably connected with the sleeve, the second catch bar is welded on the lifting block and is connected with the movable groove rod, and the lifting block is connected with the transmission device in a lifting mode and is arranged at the lower right side.

Furthermore, the transmission device comprises a second gear connecting rod, a transmission gear, a transmission belt pulley, a transmission belt, a second transmission gear, a second belt pulley, a transmission rotating shaft, a fixed seat and a fourth bevel gear, the second gear connecting rod is connected with the transmission gear and is connected with the transmission gear in a rotating way, the transmission gear is fixed on the inner wall of the box body through a shaft and is connected with the transmission belt through the second gear connecting rod in a rotating way, the transmission belt pulley is arranged on the outer side of the transmission gear, moves synchronously and is connected with the transmission belt, the transmission belt is arranged between the transmission belt pulley and the second transmission gear and is connected with the belt, the second transmission gear is connected with the second belt pulley on the inner side and is connected with the second belt pulley in a rotating way, the second belt pulley is connected with the transmission belt pulley in a transmitting way through the second belt pulley, the transmission, the fixing seat is arranged below the transmission rotating shaft, arranged at the bottom of the box body and rotationally connected with the transmission rotating shaft, and the fourth bevel gear is welded above the transmission rotating shaft and rotationally connected with the smooth winding shaft.

Advantageous effects

The invention relates to a high-efficiency cable cutting device for electric power, which is characterized in that a reverse motor is controlled and started by a control electric box to drive a motor rotating shaft to rotate, a first bevel gear and the motor rotating shaft synchronously rotate and are connected with a second bevel gear, the second bevel gear drives a reel rotating shaft and a third bevel gear to synchronously rotate, a cable reel is sleeved outside the reel rotating shaft and rotates, a cable penetrates through a U-shaped groove through a guide hole and is mutually vertical to the bottom of a telescopic rod, when the third bevel gear is rotationally connected with a power gear, a gear connecting rod is driven to move, when the gear connecting rod is movably connected with a swinging plate, the swinging plate swings left and right, when the gear connecting rod moves right, a left pushing rod is pushed to push a cutter bar to left to enable a cutting blade to penetrate through a cutter groove and to cut the cable to be connected with a blade connecting block, when the first bevel gear rotates, the first bevel gear is rotationally connected with the connecting rotating shaft and drives a rotating wheel to The cable collection device has the advantages that the effect of auxiliary cutting is achieved, when a cable is cut, the reverse motor rotates reversely to enable the power gear, the rotating wheel rotates reversely to enable the right collection rod and the left collection rod to be free of collision, when the power gear drives the first movable rod, the second movable rod moves to enable the left collection rod to be connected with the left collection rod and drive the left collection rod to move rightwards to enable the left collection rod and the telescopic rod to be in a mutually perpendicular state through the strip-shaped groove, the cable is pushed rightwards and falls into the right collection rod in an inclined mode, the second rectangular groove is embedded at the bottom of the right collection rod, the falling cable falls out through the second rectangular groove and falls into the second collection box in a collision mode through the swinging rod, workers can conveniently take the falling cable away the cable, when the rotating wheel rotates rightwards, the transmission gear rotates synchronously with the rotating wheel through the second gear connecting rod and drives the third movable rod and the sliding block, when the sliding block moves leftwards, the right collection rod is pulled by the extension The rod plays a role in guiding so that a cable head is connected with a surface groove of the smooth winding shaft and winds the cable due to rotation, when the second belt pulley is in transmission connection with the transmission belt pulley through a transmission belt, the second transmission gear and the second belt pulley rotate synchronously, the second transmission gear is in rotation connection with the transmission rotating shaft and is in lifting connection with the lifting block, when the lifting block rises to a certain position, the lifting block stops, the lifting block drives the second push rod to move upwards, when the second push rod is connected with the movable groove rod, the movable groove rod pushes the movable groove rod rightwards, the movable groove rod is connected with the sleeve block connecting rod, the sleeve block connecting rod moves leftwards and pushes the movable sleeve block to move leftwards, the inverted L-shaped fixed rod is welded at the top end of the movable sleeve block and drives the second sleeve rod to move synchronously, the second sleeve rod is connected with the inclined push block to push leftwards.

The high-efficiency cable cutting device for electric power can push the cutting blade to cut cables accurately through the cutter groove to enable each section of cable to be equal in length and the cables to stay in the U-shaped telescopic rod, the cables are collected in two directions through left and right driving of the collecting rod, and the high-efficiency cable cutting device can be rolled up and used by workers conveniently and taken out.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of an efficient cable cutting device for electric power according to the present invention.

Fig. 2 is a schematic structural view of a plane of the high-efficiency cable shearing device.

Fig. 3 is a structural schematic diagram of a component analysis of the high-efficiency cable shearing device of the invention.

Fig. 4 is a structural schematic diagram of a second component analysis of the high-efficiency cable shearing device of the invention.

Fig. 5 is a schematic structural diagram of a first dynamic diagram of the high-efficiency cable shearing device according to the present invention.

Fig. 6 is a schematic structural diagram of a second dynamic diagram of the high-efficiency cable shearing device according to the present invention.

Fig. 7 is an enlarged view schematically showing the structure at a in fig. 2.

In the figure: a box body-1, a replacing window-2, a high-efficiency cable cutting device-3, a control electric box-4, an extension block-5, a first rectangular groove-6, a first collecting box-7, a sliding rail-8, a U-shaped handle-9, a second collecting box-10, a power source device-30, a positioning device-31, a cutting mechanism-32, a collecting device-33, a guiding device-34, a rolling mechanism-35, a transmission device-36, a motor bracket-3001, a reverse motor-3002, a motor rotating shaft-3003, a first conical tooth-3004, a second conical tooth-3005, a winding drum rotating shaft-3006, a cable winding drum-3007, a fixed bearing-3008, a limiting groove-3009, a third conical tooth-3010, a groove plate-3011, a guiding hole-3012, U-shaped frame-3101, U-shaped groove-3102, lantern ring-3103, knife groove-3104, telescopic rod-3105, power gear-3201, gear connecting rod-3202, swinging plate-3203, hinge rod-3204, pushing rod-3205, knife rod-3206, first set rod-3207, cutting blade-3208, connecting rotating shaft-3209, T-shaped limit frame-3210, knife blade connecting block-3211, moving rod-3212, rotating wheel-3213, wheel carrier-3214, moving rod-3215, limit buckle-3216, transverse sleeve bearing-3217, first moving rod-3301, second moving rod-3302, hinge shaft-3303, right collecting rod-3304, second rectangular groove-3305, tension spring-3306, inner sliding rail-3307, sliding block-3308, third moving rod-3309, hinge rod-3303, right collecting rod-3304, tension spring-3305, tension spring-3306, inner sliding rail-3307, sliding block, The device comprises a left collecting rod-3310, a movable spring-3401, a swing connecting rod-3402, a movable round pin-3403, a swing rod-3404, a smooth winding shaft-3501, an inclined pushing block-3502, a second sleeve rod-3503, an inverted L-shaped fixed rod-3504, a movable sleeve block-3505, a sleeve block connecting rod-3506, a movable grooved rod-3507, a second pushing rod-3508, a lifting block-3509, a second gear connecting rod-3601, a transmission gear-3602, a transmission belt pulley-3603, a transmission belt-3604, a second transmission gear-3605, a second belt pulley-3606, a transmission rotating shaft-3607, a fixed seat-3608 and a fourth conical tooth-3609.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Examples

Referring to fig. 1-7, the invention provides a high-efficiency cable cutting device for electric power, which comprises a box body 1, a replacing window 2, a high-efficiency cable cutting device 3, a control electric box 4, an extending block 5, a first rectangular groove 6, a first collecting box 7, a sliding rail 8, a U-shaped handle 9 and a second collecting box 10;

the box body 1 is of a cuboid structure, the top of the box body 1 is provided with a replacing window 2, the replacing window 2 is embedded in the top end of the box body 1 and is hinged, the high-efficiency cable shearing device 3 is arranged in the box body 1 and is movably connected, the control electric box 4 is arranged at the upper left part of the box body 1 and is electrically connected with the high-efficiency cable shearing device 3, the extending block 5 is arranged at the left end face of the box body 1 and is fixedly connected to form an integrated structure, the first rectangular groove 6 is embedded in the front end of the first collecting box 7 and is fixedly connected, the sliding rail 8 is arranged at the bottom of the extending block 5 and is slidably connected with the first collecting box 7, and the U-shaped handle;

the cable device 3 is cut to high efficiency includes power supply unit 30, positioner 31, tailoring mechanism 32, collection device 33, guider 34, winding mechanism 35, transmission 36, power supply unit 30 installs in box 1 upper left end and is connected with control electronic box 4 electricity, positioner 31 locates between power supply unit 30, tailoring mechanism 32 and with collection device 33 swing joint, tailoring mechanism 32 locates the positioner 31 both ends and with power supply unit 30 gear connection, collection device 33 installs respectively in both ends about positioner 31 and through tailoring mechanism 32, transmission 36 hinged joint, guider 34 installs on box 1 inner wall and locates collection device 33 below both sides, winding mechanism 35 locates collection device 33 left side below and is connected with transmission 36 transmission, power supply unit 30 includes motor support 3001, the cable device is cut to the high efficiency, the power supply unit 30 is connected with control electronic box 4 electricity, cutting mechanism 31 locates between power supply unit 30, tailoring mechanism 32 and with collection device 33 swing joint, reverse motor 3002, motor shaft 3003, first awl tooth 3004, second awl tooth 3005, reel axis of rotation 3006, cable reel 3007, fixing bearing 3008, spacing groove 3009, third awl tooth 3010, recess board 3011, guiding hole 3012, motor bracket 3001 left end welds on box 1 inner wall and upper portion is equipped with reverse motor 3002, reverse motor 3002 is installed in motor bracket 3001 upper surface and is connected with control electronic box 4 electricity, motor shaft 3003 is located reverse motor 3002 right side and is rotated and be connected, first awl tooth 3004 welds at motor shaft 3003 right-hand member and with second awl tooth 3005 gear connection, reel axis of rotation 3006 is connected in the left side and is located the fixing bearing 3008 outside to second awl tooth 3005, reel axis of rotation 3006 runs through cable reel 3007, fixing bearing 3008 and rotates through second awl tooth 3005 and connects, cable reel 3007 cover is located reel axis of rotation 3006 outside and is rotated and is connected and is located the fixing bearing 3008 middle part, the fixed bearing 3008 is connected with the top of the box body 1, arranged at two ends of the cable drum 3007 and rotationally connected with the drum rotating shaft 3006, the limit groove 3009 is embedded at the top end of the box body 1 and movably connected with the right end of the fixed bearing 3008, the third bevel gear 3010 is welded at the right side of the drum rotating shaft 3006 and is in transmission connection with the positioning device 31, the groove plate 3011 is connected with the fixed bearing 3008 at the right lower side and arranged at the bottom of the cable drum 3007, the guide hole 3012 is embedded in the middle of the groove plate 3011, the positioning device 31 comprises a U-shaped frame 3101, a U-shaped groove 3102, a lantern ring 3103, a knife groove 3104 and a telescopic rod 3105, the U-shaped frame 3101 is welded at the front end of the lantern ring 3103 and arranged right below the guide hole 3012, the U-shaped groove 3102 is embedded in the middle of the U-shaped frame 3101, the lantern ring 3103 is sleeved outside the telescopic rod 3105 and is fixedly connected with the U-shaped frame, the telescopic rod 3105 is connected with the box body 1 on the collecting device 33 and is hinged, the cutting mechanism 32 comprises a power gear 3201, a gear connecting rod 3202, a swing plate 3203, a hinge rod 3204, a pushing rod 3205, a cutter rod 3206, a first sleeve rod 3207, a cutting blade 3208, a connecting rotating shaft 3209, a T-shaped limit frame 3210, a blade connecting block 3211, a moving rod 3212, a rotating wheel 3213, a wheel carrier 3214, a movable rod 3215, a limit buckle 3216 and a transverse sleeve bearing 3217, the power gear 3201 is arranged above the right side of the box body 1 and is rotatably connected with a third bevel gear 3010, the gear connecting rod 3202 is connected with the power gear 3201 and is movably connected with the swing plate 3203 through the power gear 3201, the swing plate 3203 is connected with the pushing rod 3205 through the gear connecting rod 3202 and is hinged with the hinge rod 3204, the hinge rod 3204 is connected with the swing plate 3203 and the right end is fixedly connected with the inner wall of the box body 3201, the pushing rod 3205 is connected with the swing plate 3206 and is fixed at the right end, the knife bar 3206 is sleeved inside the first bar 3207 and movably connected through a push bar 3205, the inner side of the first bar 3207 is welded on the inner wall of the box body 1 and sleeved outside the knife bar 3206, the cutting blade 3208 is welded on the left end of the knife bar 3206 and engaged with the knife groove 3104, the connecting rotation shaft 3209 is fixed on the right side of the motor bracket 3001 through a transverse sleeve bearing 3217 and rotatably connected with the first bevel gear 3004, the inner side of the T-shaped limit frame 3210 is welded on the inner wall of the box body 1 and sleeved outside the moving bar 3212, the blade connecting block 3211 is welded on the right end of the moving bar 3212 and matched with the cutting blade 3208, the moving bar 3212 is arranged at the front end of the connecting rotation shaft 3209 and movably connected with the T-shaped limit frame 3210 through a moving bar 3215, the rotating wheel 3213 is fixed above the wheel carrier 3214 and rotatably connected with the connecting rotation shaft 3209, the wheel carrier 3213 is welded on the inner wall of the box body 1, the moving bar 3215 is connected with the wheel carrier 3214 and movably connected with the moving bar 321, the limiting buckle 3216 is welded on the upper surface of the rotating wheel 3213, is connected with the movable rod 3215 in a limiting manner and is fixed in the middle of the movable rod 3215, the left end of the transverse sleeve bearing 3217 is welded on the right end of the motor bracket 3001, is sleeved outside the connecting rotating shaft 3209 and is connected in a rotating manner, the collecting device 33 comprises a first movable rod 3301, a second movable rod 3302, a hinge shaft 3303, a right collecting rod 3304, a second rectangular groove 3305, a tension spring 3306, an inner sliding rail 3307, a sliding block 3308, a third movable rod 3309 and a left collecting rod 3310, the first movable rod 3301 is connected with the power gear 3201 in a moving manner, the second movable rod 3302 is connected with the rear portion of the first movable rod 3301 and the left collecting rod 3310 in a pulling manner through the first movable rod 3301 and is connected with the left collecting rod 3310 in a pulling manner, the hinge shaft 3303 penetrates through the right collecting rod 3304, the left collecting rod 3310 and is connected with the lower portion of the telescopic rod 3105 in a hinge connection manner, the right collecting rod 3304 is mounted, the second rectangular groove 3305 is inlaid in the right collecting rod 3304 and the left collecting rod 3310 and fixedly connected, the extension spring 3306 is connected with the third movable rod 3309 and the right collecting rod 3304 on the left side and connected with the hinge axis 3303 by pulling, the inner side of the inner slide rail 3307 is welded on the inner wall of the box 1 and the middle part is provided with a sliding block 3308, the sliding block 3308 is arranged in the middle part of the inner slide rail 3307 and connected with the inner slide rail 3307 by sliding through the third movable rod 3309, the third movable rod 3309 is connected with the sliding block 3308 by pushing through the transmission device 36, the left collecting rod 3310 is equidistantly distributed on the left side of the right collecting rod 3304 and connected with the expansion link 3105 by hinge through the second movable rod 3302, the guide device 34 comprises a movable spring 3401, a swing connecting rod 3402, a movable round pin 3403 and a swing rod 3404, the swing spring 3401 is connected with the inner wall of the box 1 at the upper right side of the swing rod 3404, the swing connecting rod 3402 is connected on the inner wall of, the movable round pin 3403 is disposed between and movably connected to the swing connecting rod 3402 and the swing lever 3404, the swing lever 3404 is movably connected to the swing connecting rod 3402 through the movable round pin 3403 and disposed at the left end, the winding mechanism 35 includes a smooth winding shaft 3501, an inclined pushing block 3502, a second winding shaft 3503, an inverted L-shaped fixing lever 3504, a movable winding block 3505, a winding block connecting rod 3506, a movable groove bar 3507, a second pushing bar 3508, and a lifting block 3509, the smooth winding shaft 3501 is disposed at the upper portion of the transmission device 36 and is supported and connected, the inclined pushing block 3502 is welded at the bottom of the second winding shaft 3503 and is synchronously movable with the inverted L-shaped fixing lever 3504 and is disposed at the upper portion of the smooth winding shaft 3501, the second winding shaft 3503 is disposed at the upside of the inverted L-shaped fixing lever 3504 and is synchronously movable, the inverted L-shaped fixing lever 4 is welded at the top end of the movable winding shaft 3505 and is movably connected with the smooth winding shaft 3501, the sleeve block connecting rod 3506 is connected with a movable sleeve block 3505 and a movable groove rod 3507, the movable groove rod 3507 is arranged between a second pushing rod 3508 and the sleeve block connecting rod 3506 and is movably connected with the sleeve block connecting rod 3506 through the second pushing rod 3508, the second pushing rod 3508 is welded on a lifting block 3509 and is connected with the movable groove rod 3507, the lifting block 3509 is connected with a transmission device 36 in a lifting way and is arranged at the lower right part, the transmission device 36 comprises a second gear connecting rod 3601, a transmission gear 3602, a transmission belt 3603, a transmission belt 3604, a second transmission gear 3605, a second belt pulley 6, a transmission rotating shaft 3607, a fixed seat 3608 and a fourth conical tooth 3609, the second gear connecting rod 3601 is connected with a rotating wheel 3213 on the transmission gear 3602 and is rotatably connected, the transmission gear 3602 is fixed on the inner wall of a box 1 through a shaft and is rotatably connected with the second gear connecting rod 3601, the transmission belt 3603 is arranged at the outer side of the transmission gear 3602 and is synchronously movable and is connected with the transmission, the transmission belt 3604 is arranged between the transmission belt pulley 3603 and the second transmission gear 3605 and is in belt connection, the second transmission gear 3605 is connected with the second belt pulley 3606 on the inner side and is in rotary connection with the second belt pulley 3606, the second belt pulley 3606 is in transmission connection with the transmission belt pulley 3603 through the second belt pulley 3606, the transmission rotating shaft 3607 is arranged on the right side of the second transmission gear 3605 and is in rotary connection with the second transmission gear 3605, the fixing seat 3608 is arranged below the transmission rotating shaft 3607 and is arranged at the bottom of the box body 1 and is in rotary connection with the transmission rotating shaft 3607, and the fourth bevel gear 3609 is welded above the transmission rotating shaft 3607 and is in rotary connection with the smooth winding shaft 3501.

The invention provides a high-efficiency cable shearing device for electric power, which has the working principle that: the reversing motor 3002 is controlled and started by the control electric box 4 to enable the reversing motor 3002 to drive the motor rotating shaft 3003 to rotate, the first bevel gear 3004 and the motor rotating shaft 3003 rotate synchronously and are in gear connection with the second bevel gear 3005, the second bevel gear 3005 drives the reel rotating shaft 3006 and the third bevel gear 3010 to rotate synchronously, the cable reel 3007 is sleeved outside the reel rotating shaft 3006 and rotates, a cable penetrates through the U-shaped groove 3102 through the guide hole 3012 and is perpendicular to the bottom of the telescopic rod 3105, when the third bevel gear 3010 and the power gear 3201 are connected in a rotating mode, the gear connecting rod 3202 drives the swing plate 3203 to swing left and right when the gear connecting rod 3202 and the swing plate 3203 are connected and move, when the gear connecting rod 3202 moves right, the left pushing rod 3205 is pushed to push the cutter bar 3206 left to enable the cutting blade 3208 to penetrate through the cutter groove 3104 and cut the cable to be connected with the blade connecting block 3211, and when the first bevel gear 3004 rotates, the, when the rotating wheel 3213 rotates, the limit buckle 3216 drives the movable rod 3215 to swing and push the movable rod 3212 to connect the right blade connecting block 3211 with the cutting blade 3208 to achieve the effect of assisting cutting, when the cable is cut, the reverse motor 3002 rotates reversely to rotate the power gear 3201 and the rotating wheel 3213 reversely to rotate the right collecting rod 3304 and the left collecting rod 3310 without collision, when the power gear 3201 drives the first movable rod 3301 and the second movable rod 3302 to move and connect with the left collecting rod 3310 and drive the left collecting rod 3310 to move rightward to make the left collecting rod 3310 and the telescopic rod 3105 in a mutually perpendicular state through the strip-shaped groove and tilt rightward to push the cable and fall into the right collecting rod 3304, the second rectangular groove 3305 is embedded at the bottom of the right collecting rod 3304, the fallen cable falls out through the second rectangular groove 3305 and collides with the swinging rod 3404 to collide with the second collecting box 10 to be taken away by the worker, when the rotating wheel 3213 rotates rightward, the transmission gear 3602 rotates synchronously with the rotating wheel 3213 through the second gear connecting rod 3601 and drives the third movable rod 3309 and the sliding block 3308, when the sliding block 3308 moves leftwards, the tension spring 3306 pulls the right collecting rod 3304 to swing leftwards, so that the right collecting rod 3304 brings the cable into the left collecting rod 3310 in a mutually perpendicular state through the strip-shaped groove and the left swinging rod 3404 plays a guiding role to connect the cable head with the surface groove of the smooth winding shaft 3501 and wind the cable due to the rotation, when the second belt pulley 3606 is connected with the transmission belt 3603 through the transmission belt 3604, the second transmission gear 3605 rotates synchronously with the second belt pulley 3606, the second transmission gear 3605 is connected with the transmission rotating shaft 3607 in a rotating way and connected with the lifting block 3509 in a lifting way, when the lifting block 3509 is lifted to a certain position, the lifting block 3509 drives the second pushing rod 3508 to move upwards, and when the second pushing rod 3508 is connected with the moving groove rod 3507, the moving groove rod 3507 moves rightwards, the movable groove rod 3507 is connected with the sleeve block connecting rod 3506, the sleeve block connecting rod 3506 moves leftwards and pushes the movable sleeve block 3505 to move leftwards, the inverted-L-shaped fixed rod 3504 is welded at the top end of the movable sleeve block 3505 and drives the second sleeve rod 3503 to move synchronously, the second sleeve rod 3503 is connected with the inclined pushing block 3502 to push leftwards to push the wound cable to the first collecting box 7, and the cable collecting device is convenient to use.

The swinging plate 3203 of the present invention is a rectangular parallelepiped plate that can swing to push and change the position by connecting two points, and is widely used in general.

The invention solves the problem of the high-efficiency cable cutting device for electric power, and the high-efficiency cable cutting device for electric power can push the cutting blade to cut cables accurately through the cutter groove by combining the components, so that each section of cable is equal in length, the cables stay in the U-shaped telescopic rod, the cables are collected in two directions by the left and right driving of the collecting rod, and the high-efficiency cable cutting device can be rolled and used by workers conveniently and taken out.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (1)

1. The utility model provides a cable device is cut with high efficiency to electric power, its structure includes box (1), changes window (2), cable device (3) are cut to the high efficiency, control electronic box (4), extension piece (5), first rectangular channel (6), first collecting box (7), slide rail (8), U type hand (hold) 9, second collecting box (10), its characterized in that:

the box body (1) is of a cuboid structure, the top of the box body (1) is provided with a replacing window (2), the replacing window (2) is embedded in the top end of the box body (1) and is in hinged connection, the high-efficiency cable shearing device (3) is arranged in the box body (1) and is movably connected, the control electronic box (4) is arranged at the upper left part of the box body (1) and is electrically connected with the high-efficiency cable shearing device (3), the extending block (5) is arranged at the left end face of the box body (1) and is fixedly connected to form an integrated structure, the first rectangular groove (6) is embedded in the front end of the first collecting box (7) and is fixedly connected, the sliding rail (8) is arranged at the bottom of the extending block (5) and is in sliding connection with the first collecting box (7), and the U-shaped handle (;

the high-efficiency cable shearing device (3) comprises a power source device (30), a positioning device (31), a shearing mechanism (32), a collecting device (33), a guiding device (34), a winding mechanism (35) and a transmission device (36), wherein the power source device (30) is installed at the upper left end of the box body (1) and is electrically connected with the control electronic box (4), the positioning device (31) is arranged between the power source device (30) and the shearing mechanism (32) and is movably connected with the collecting device (33), the shearing mechanism (32) is arranged at two ends of the positioning device (31) and is in gear connection with the power source device (30), the collecting device (33) is respectively installed at the left end and the right end of the positioning device (31) and is in hinged connection with the cutting mechanism (32) and the transmission device (36), the guiding device (34) is installed on the inner wall of the box body (1) and is arranged at two sides below, the winding mechanism (35) is arranged at the lower left of the collecting device (33) and is in transmission connection with the transmission device (36);

the power source device (30) comprises a motor support (3001), a reverse motor (3002), a motor rotating shaft (3003), a first bevel gear (3004), a second bevel gear (3005), a reel rotating shaft (3006), a cable reel (3007), a fixed bearing (3008), a limiting groove (3009), a third bevel gear (3010), a groove plate (3011) and a guide hole (3012), wherein the left end of the motor support (3001) is welded on the inner wall of the box body (1) and the upper part of the motor support is provided with the reverse motor (3002), the reverse motor (3002) is arranged on the upper surface of the motor support (3001) and is electrically connected with the control electric box (4), the motor rotating shaft (3003) is arranged on the right side of the reverse motor (3002) and is connected with the rotary shaft (3003), the first bevel gear (3004) is welded on the right end of the motor rotating shaft (3003) and is connected with the second bevel gear, the reel rotating shaft (3005) is connected with the reel rotating shaft (3006), the cable reel is characterized in that the reel rotating shaft (3006) penetrates through the cable reel (3007) and the fixed bearing (3008) and is rotatably connected through the second bevel gear (3005), the cable reel (3007) is sleeved outside the reel rotating shaft (3006) and is rotatably connected with the middle of the fixed bearing (3008), the fixed bearing (3008) is connected with the box body (1) at the top and arranged at two ends of the cable reel (3007) and is rotatably connected with the reel rotating shaft (3006), the limiting groove (3009) is embedded in the top end of the box body (1) and movably connected with the right end of the fixed bearing (3008), the third bevel gear (3010) is welded on the right side of the reel rotating shaft (3006) and is in transmission connection with the positioning device (31), the groove plate (3011) is connected with the fixed bearing (3008) at the lower right side and arranged at the bottom of the cable reel (3007), and the guide hole (3012) is embedded in the middle of;

the positioning device (31) comprises a U-shaped frame (3101), a U-shaped groove (3102), a lantern ring (3103), a knife groove (3104) and a telescopic rod (3105), wherein the U-shaped frame (3101) is welded at the front end of the lantern ring (3103) and is arranged right below a guide hole (3012), the U-shaped groove (3102) is embedded in the middle of the U-shaped frame (3101), the lantern ring (3103) is sleeved outside the telescopic rod (3105) and is fixedly connected with the U-shaped frame (3101), the knife groove (3104) is embedded on the telescopic rod (3105) and is arranged below the U-shaped frame (3101), and the telescopic rod (3105) is connected with the box body (1) on the collecting device (33) and is hinged; the cutting mechanism (32) comprises a power gear (3201), a gear connecting rod (3202), a swing plate (3203), a hinge rod (3204), a push rod (3205), a cutter rod (3206), a first sleeve rod (3207), a cutting blade (3208), a connecting rotating shaft (3209), a T-shaped limiting frame (3210), a blade connecting block (3211), a moving rod (3212), a rotating wheel (3213), a wheel carrier (3214), a moving rod (3215), a limiting buckle (3216) and a transverse sleeve bearing (3217), wherein the power gear (3201) is installed above the right of the box body (1) and is in rotating connection with a third bevel gear (3010), the gear connecting rod (3202) is connected with the power gear (3201) and the swing plate (3203) and is movably connected with the swing plate (3203) through the power gear (3201), and the swing plate (3203) is in pushing connection with the push rod (3205) through the gear connecting rod (3202) and is in hinge connection with the hinge rod (3204), the hinge rod (3204) is connected with the swing plate (3203) and the right end is fixedly connected with the inner wall of the box body (1), the push rod (3205) is connected with the swing plate (3203) and is fixedly connected with the right end of the cutter bar (3206), the cutter bar (3206) is sleeved inside the first sleeve rod (3207) and is movably connected through the push rod (3205), the inner side of the first sleeve rod (3207) is welded on the inner wall of the box body (1) and is sleeved outside the cutter bar (3206), the cutting blade (3208) is welded on the left end of the cutter bar (3206) and is meshed with the cutter groove (3104), the connecting rotating shaft (3209) is fixed on the right side of the motor bracket (3001) through a transverse sleeve bearing (3217) and is rotatably connected with the first conical tooth (3004), the inner side of the T-shaped limiting frame (3210) is welded on the inner wall of the box body (1) and is sleeved outside the moving rod (3212) in a matching manner, and the blade connecting block (3211) is welded on the right end of the moving rod (, the movable rod (3212) is arranged at the front end of the connecting rotating shaft (3209) and is movably connected with the T-shaped limiting frame (3210) through the movable rod (3215), the rotating wheel (3213) is fixed above the wheel carrier (3214) and is rotatably connected with the connecting rotating shaft (3209), the wheel carrier (3214) is welded on the inner wall of the connecting rotating wheel (3213) in the box body (1), the movable rod (3215) is connected with the wheel carrier (3214) and the movable rod (3212) and is connected with the movable rod (3212) in a pushing manner through a limiting buckle (3216), the limiting buckle (3216) is welded on the upper surface of the rotating wheel (3213) and is connected with the movable rod (3215) in a limiting manner and is fixed in the middle of the movable rod (3215), and the left end of the transverse sleeve bearing (3217) is welded on the right end of the motor bracket (3001) and is sleeved outside the connecting rotating shaft (3209;

the collecting device (33) comprises a first movable rod (3301), a second movable rod (3302), a hinge shaft (3303), a right collecting rod (3304), a second rectangular groove (3305), a tension spring (3306), an inner sliding rail (3307), a sliding block (3308), a third movable rod (3309) and a left collecting rod (3310), wherein the first movable rod (3301) is connected with a power gear (3201) and movably connected with the power gear, the second movable rod (3302) is connected with the rear parts of the first movable rod (3301) and the left collecting rod (3310) and is connected with the left collecting rod (3310) through the first movable rod (3301) in a pulling manner, the hinge shaft (3303) penetrates through the right collecting rod (3304) and the left collecting rod (3310) and is connected with the lower part of the telescopic rod (3105) and is connected with the hinge, the right collecting rod (3304) is mounted at the right end of the telescopic rod (3105) through the hinge shaft (3303) and is movably connected with the tension spring (3306), the second rectangular groove (3305) is embedded in the right collecting rod (3304) and the left collecting rod (3310) and is fixedly connected with the inside of the right collecting rod (3304), an extension spring (3306) is connected with a third movable rod (3309) and the left side of the right collecting rod (3304) and is connected with a hinge shaft (3303) in a pulling manner, the inner side of the inner slide rail (3307) is welded on the inner wall of the box body (1) and is provided with a slide block (3308) in the middle, the slide block (3308) is arranged in the middle of the inner slide rail (3307) and is connected with the inner slide rail (3307) in a sliding manner through the third movable rod (3309), the third movable rod (3309) is connected with the slide block (3308) in a pushing manner through a transmission device (36), and the left collecting rods (3310) are distributed on the left side of the right collecting rod (3304) at equal intervals;

the guide device (34) comprises a movable spring (3401), a swing connecting rod (3402), a movable round pin (3403) and a swing rod (3404), the movable spring (3401) is welded on the right upper part of the swing rod (3404) and the inner wall of the box body (1), the swing connecting rod (3402) is connected with the swing rod (3404) on the inner wall of the box body (1) and movably connected with the swing rod (3404), the movable round pin (3403) is arranged between the swing connecting rod (3402) and the swing rod (3404) and movably connected with the swing rod, and the swing rod (3404) is movably connected with the swing connecting rod (3402) through the movable round pin (3403) and is arranged at the left end;

the winding mechanism (35) comprises a smooth winding shaft (3501), an inclined pushing block (3502), a second loop bar (3503), an inverted L-shaped fixed bar (3504), a movable loop block (3505), a loop block connecting bar (3506), a movable groove bar (3507), a second pushing bar (3508) and a lifting block (3509), wherein the smooth winding shaft (3501) is arranged at the upper part of the transmission device (36) and is in supporting connection, the inclined pushing block (3502) is welded at the bottom of the second loop bar (3503) and synchronously moves with the inverted L-shaped fixed bar (3504) and is arranged at the upper part of the smooth winding shaft (3501), the second loop bar (3503) is arranged on the inverted L-shaped fixed bar (3504) through a groove and synchronously moves, the inverted L-shaped fixed bar (3504) is welded at the top end of the movable loop block (3505) and is movably connected with the smooth winding shaft (3501), and the movable loop block (3505) is sleeved outside the smooth winding shaft (3501), the sleeve block connecting rod (3506) is connected with a movable sleeve block (3505) and a movable groove rod (3507), the movable groove rod (3507) is arranged between a second push rod (3508) and the sleeve block connecting rod (3506) and is movably connected with the sleeve block connecting rod (3506) through the second push rod (3508), the second push rod (3508) is welded on a lifting block (3509) and is connected with the movable groove rod (3507), and the lifting block (3509) is connected with a transmission device (36) in a lifting mode and is arranged on the lower right side;

the transmission device (36) comprises a second gear connecting rod (3601), a transmission gear (3602), a transmission belt pulley (3603), a transmission belt (3604), a second transmission gear (3605), a second belt pulley (3606), a transmission rotating shaft (3607), a fixed seat (3608) and a fourth bevel gear (3609), the second gear connecting rod (3601) is connected with the rotating gear (3213) and is connected with the transmission gear (3602) in a rotating mode, the transmission gear (3602) is fixed on the inner wall of the box body (1) through a shaft and is connected with the transmission belt pulley (3604) in a rotating mode through the second gear connecting rod (3601), the transmission belt pulley (3603) is arranged on the outer side of the transmission gear (3602) and is synchronously movable and connected with the transmission belt pulley (3604), the transmission belt (3604) is arranged between the transmission belt pulley (3603) and the second transmission gear (3605) and is connected with the second belt pulley (3606) in a rotating mode, the second belt pulley (3606) is in transmission connection with the transmission belt pulley (3603) through a second belt pulley (3606), the transmission rotating shaft (3607) is arranged on the right side of the second transmission gear (3605) and is in rotation connection with the second transmission gear (3605), the fixing seat (3608) is arranged below the transmission rotating shaft (3607), is arranged at the bottom of the box body (1) and is in rotation connection with the transmission rotating shaft (3607), and the fourth conical tooth (3609) is welded above the transmission rotating shaft (3607) and is in rotation connection with the smooth winding shaft (3501);

the reverse motor drives the motor rotating shaft to rotate by controlling the electric box and starting the reverse motor, the first bevel gear and the motor rotating shaft synchronously rotate and are connected with the second bevel gear, the second bevel gear drives the drum rotating shaft and the third bevel gear to synchronously rotate, the cable drum is sleeved outside the drum rotating shaft and rotates, the cable penetrates through the U-shaped groove through the guide hole and is mutually vertical to the bottom of the telescopic rod, when the third bevel gear is rotationally connected with the power gear, the gear connecting rod is driven to move, the swinging plate swings left and right when the gear connecting rod is connected with the swinging plate, when the cable drum moves right, the left pushing rod is pushed to push the cutter bar left to enable the cutting blade to penetrate through the cutter groove and cut the cable to be connected with the blade connecting block, when the first bevel gear rotates, the connecting shaft is rotationally connected with the connecting rotating wheel to rotate, when the rotating wheel rotates, the position-limiting buckle drives the movable rod to swing and pushes the movable rod to enable the, when the cable is cut off, the reverse motor rotates reversely to make the power gear, the rotating wheel rotates reversely to make the right collecting rod and the left collecting rod not collide, when the power gear drives the first movable rod, the second movable rod moves to make the left collecting rod connected with the left collecting rod and drive the left collecting rod to move rightwards to make the left collecting rod and the telescopic rod be in mutually perpendicular state through the strip-shaped groove and incline rightwards to push the cable rightwards and fall into the right collecting rod, the second rectangular groove is embedded at the bottom of the right collecting rod, the fallen cable falls out through the second rectangular groove and collides with the swinging rod to fall into the second collecting box to be convenient for the worker to take away, when the rotating wheel rotates rightwards, the transmission gear rotates synchronously with the rotating wheel through the second gear connecting rod and drives the third movable rod and the sliding block, when the sliding block moves leftwards, the stretching spring pulls the right collecting rod to swing leftwards to make the right collecting rod be in mutually perpendicular state through the strip-shaped groove to bring the cable into the left The cable winding device comprises a first belt wheel, a first transmission gear, a first lifting block, a second driving gear, a first pushing rod, a second pushing rod, a moving groove rod, a sleeve block connecting rod, a moving sleeve block, an inverted L-shaped fixing rod, a second sleeve rod and an inclined pushing block, wherein the first driving gear is connected with a surface groove of a smooth winding shaft and rotates to wind a cable, the second transmission gear and the second belt wheel synchronously rotate when the second belt wheel is in transmission connection with a transmission belt wheel through a transmission belt, the second transmission gear is in transmission connection with a transmission rotating shaft and is in lifting connection with the lifting block, the lifting block stops when rising to a certain position, the lifting block drives the second pushing rod to move upwards, the moving groove rod is pushed rightwards when the second pushing rod is connected with the moving groove rod, the.

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